Almog R. Azulay scite author profile

Almog R. Azulay

3Publications

21Citation Statements Received

55Citation Statements Given

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Affiliations

Ben-Gurion University of the Negev, Sami Shamoon College of Engineering

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PDMS Deposition for Optical Devices by Dip‐Pen Nanolithography

Zohar

Azulay

Bykhovsky

et al. 2017

Macro Materials & Eng

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Dip‐pen nanolithography (DPN) is a low‐cost, versatile bench‐top method for directly patterning materials on surfaces with sub‐50 nm resolution; it involves the use of a cantilever tip to transfer a selected ink onto various surfaces to create predefined patterns. Many parameters may influence DPN quality, due to the variety of deposited and surface materials and the chemical interactions between them. DPN tip deposition of liquid inks is not yet well understood, due to the lack of thorough study of the various parameters that need to be controlled in order to achieve uniform patterning. In this research, the printing of polydimethylsiloxane (PDMS) lines and the control of their physical dimensions are investigated; the applied parameters are different humidity levels, n‐hexane dilution proportions and different tip velocities. Numerous experiments accompanied by atomic force microscope measurements are conducted in order to derive a recommended recipe for the required dimensions of the printable lines. A practical aspect of the research is to assess the potential of the application of DPN for the fabrication of various optical devices, such as gratings and waveguides. In order to validate the theoretical results, PDMS printing over silicon is used to successfully produce an optical diffraction grating.

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Why do nanowires grow with their c-axis vertically-aligned in the absence of epitaxy?

Azulay

Gaudio

Goldman

et al. 2020

Sci Rep

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Images of uniform and upright nanowires are fascinating, but often, they are quite puzzling, when epitaxial templating from the substrate is clearly absent. Here, we reveal one such hidden growth guidance mechanism through a specific example -the case of ZnO nanowires grown on silicon oxide and glass. We show how electric fields exerted by the insulating substrate may be manipulated through the surface charge to define the orientation of the nanowires. Our results suggest that the growth of wurtzite semiconductors may often be described as a process of electric-charge-induced self assembly.

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Printable grating patterns of PDMS by dip-pen nanolithography

Fradkin

Bykhovsky

Zohar

et al. 2016

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Almog R. Azulay

PDMS Deposition for Optical Devices by Dip‐Pen Nanolithography

Why do nanowires grow with their c-axis vertically-aligned in the absence of epitaxy?

Printable grating patterns of PDMS by dip-pen nanolithography

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